Energies (Apr 2018)

Lithium-Ion Cell Fault Detection by Single-Point Impedance Diagnostic and Degradation Mechanism Validation for Series-Wired Batteries Cycled at 0 °C

  • Corey T. Love,
  • Matthieu Dubarry,
  • Tatyana Reshetenko,
  • Arnaud Devie,
  • Neil Spinner,
  • Karen E. Swider-Lyons,
  • Richard Rocheleau

DOI
https://doi.org/10.3390/en11040834
Journal volume & issue
Vol. 11, no. 4
p. 834

Abstract

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The utility of a single-point impedance-based technique to monitor the state-of-health of a pack of four 18650 lithium-ion cells wired in series (4S) was demonstrated in a previous publication. This work broadens the applicability of the single-point monitoring technique to identify temperature induced faults within 4S packs at 0 °C by two distinct discharge cut-off thresholds: individual cell cut-off and pack voltage cut-off. The results show how the single-point technique applied to a 4S pack can identify cell faults induced by low temperature degradation when plotted on a unique state-of-health map. Cell degradation is validated through an extensive incremental capacity technique to quantify capacity loss due to low temperature cycling and investigate the underpinnings of cell failure.

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